Continental configuration controls ocean oxygenation during the Phanerozoic
Continental configuration controls ocean oxygenation during the Phanerozoic
The early evolutionary and much of the extinction history of marine animals is thought to be driven by changes in dissolved oxygen concentrations ([O2]) in the ocean1–3. In turn, [O2] is widely assumed to be dominated by the geological history of atmospheric oxygen (pO2)4,5. Here, by contrast, we show by means of a series of Earth system model experiments how continental rearrangement during the Phanerozoic Eon drives profound variations in ocean oxygenation and induces a fundamental decoupling in time between upper-ocean and benthic [O2]. We further identify the presence of state transitions in the global ocean circulation, which lead to extensive deep-ocean anoxia developing in the early Phanerozoic even under modern pO2. Our finding that ocean oxygenation oscillates over stable thousand-year (kyr) periods also provides a causal mechanism that might explain elevated rates of metazoan radiation and extinction during the early Palaeozoic Era6. The absence, in our modelling, of any simple correlation between global climate and ocean ventilation, and the occurrence of profound variations in ocean oxygenation independent of atmospheric pO2, presents a challenge to the interpretation of marine redox proxies, but also points to a hitherto unrecognized role for continental configuration in the evolution of the biosphere.
523-527
Pohl, Alexandre
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Ridgwell, Andy
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Stockey, Richard G.
005ca449-f5c9-4049-835f-0a9c6df3a93d
Thomazo, Christophe
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Keane, Andrew
c053305c-7281-4340-bc48-c73bb3981529
Vennin, Emmanuelle
a6082526-5ba9-43c0-af0f-95b169a9f760
Scotese, Christopher R.
96a632ed-b786-4873-96b8-5a75feca0d5a
18 August 2022
Pohl, Alexandre
f16e3cc1-da9c-4fad-b4ee-f640d7978ae6
Ridgwell, Andy
769cea5c-e033-456a-8b53-51dfa307dc35
Stockey, Richard G.
005ca449-f5c9-4049-835f-0a9c6df3a93d
Thomazo, Christophe
78ef688d-20b7-4050-b8ea-5c51c46bfb6e
Keane, Andrew
c053305c-7281-4340-bc48-c73bb3981529
Vennin, Emmanuelle
a6082526-5ba9-43c0-af0f-95b169a9f760
Scotese, Christopher R.
96a632ed-b786-4873-96b8-5a75feca0d5a
Pohl, Alexandre, Ridgwell, Andy, Stockey, Richard G., Thomazo, Christophe, Keane, Andrew, Vennin, Emmanuelle and Scotese, Christopher R.
(2022)
Continental configuration controls ocean oxygenation during the Phanerozoic.
Nature, 608 (7923), .
(doi:10.1038/s41586-022-05018-z).
Abstract
The early evolutionary and much of the extinction history of marine animals is thought to be driven by changes in dissolved oxygen concentrations ([O2]) in the ocean1–3. In turn, [O2] is widely assumed to be dominated by the geological history of atmospheric oxygen (pO2)4,5. Here, by contrast, we show by means of a series of Earth system model experiments how continental rearrangement during the Phanerozoic Eon drives profound variations in ocean oxygenation and induces a fundamental decoupling in time between upper-ocean and benthic [O2]. We further identify the presence of state transitions in the global ocean circulation, which lead to extensive deep-ocean anoxia developing in the early Phanerozoic even under modern pO2. Our finding that ocean oxygenation oscillates over stable thousand-year (kyr) periods also provides a causal mechanism that might explain elevated rates of metazoan radiation and extinction during the early Palaeozoic Era6. The absence, in our modelling, of any simple correlation between global climate and ocean ventilation, and the occurrence of profound variations in ocean oxygenation independent of atmospheric pO2, presents a challenge to the interpretation of marine redox proxies, but also points to a hitherto unrecognized role for continental configuration in the evolution of the biosphere.
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More information
Accepted/In Press date: 23 June 2022
e-pub ahead of print date: 17 August 2022
Published date: 18 August 2022
Additional Information:
Funding Information:
We thank J. Mossinger for editorial handling. This project has received financing from the European Union’s Horizon 2020 research and innovation programme under Marie Skłodowska-Curie grant agreement no. 838373. Calculations were partly performed using HPC resources from DNUM CCUB (Centre de Calcul de l’Université de Bourgogne). A.R. acknowledges support from NSF grants 1736771 and EAR-2121165, as well as from the Heising-Simons Foundation. This is a contribution to UNESCO project IGCP 735 ‘Rocks and the Rise of Ordovician Life (Rocks n’ ROL)’.
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Local EPrints ID: 474736
URI: http://eprints.soton.ac.uk/id/eprint/474736
ISSN: 0028-0836
PURE UUID: fc16be9f-88d4-4542-891d-cff9754131e7
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Date deposited: 02 Mar 2023 17:37
Last modified: 18 Mar 2024 04:08
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Contributors
Author:
Alexandre Pohl
Author:
Andy Ridgwell
Author:
Richard G. Stockey
Author:
Christophe Thomazo
Author:
Andrew Keane
Author:
Emmanuelle Vennin
Author:
Christopher R. Scotese
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